use crate::client_common::tools::ResponsesApiTool;
use crate::client_common::tools::ToolSpec;
use crate::features::Feature;
use crate::features::Features;
use crate::openai_models::model_family::ModelFamily;
use crate::tools::handlers::PLAN_TOOL;
use crate::tools::handlers::apply_patch::ApplyPatchToolType;
use crate::tools::handlers::apply_patch::create_apply_patch_freeform_tool;
use crate::tools::handlers::apply_patch::create_apply_patch_json_tool;
use crate::tools::registry::ToolRegistryBuilder;
use codex_protocol::openai_models::ConfigShellToolType;
use serde::Deserialize;
use serde::Serialize;
use serde_json::Value as JsonValue;
use serde_json::json;
use std::collections::BTreeMap;
use std::collections::HashMap;

#[derive(Debug, Clone)]
pub(crate) struct ToolsConfig {
    pub shell_type: ConfigShellToolType,
    pub apply_patch_tool_type: Option<ApplyPatchToolType>,
    pub web_search_request: bool,
    pub include_view_image_tool: bool,
    pub experimental_supported_tools: Vec<String>,
}

pub(crate) struct ToolsConfigParams<'a> {
    pub(crate) model_family: &'a ModelFamily,
    pub(crate) features: &'a Features,
}

impl ToolsConfig {
    pub fn new(params: &ToolsConfigParams) -> Self {
        let ToolsConfigParams {
            model_family,
            features,
        } = params;
        let include_apply_patch_tool = features.enabled(Feature::ApplyPatchFreeform);
        let include_web_search_request = features.enabled(Feature::WebSearchRequest);
        let include_view_image_tool = features.enabled(Feature::ViewImageTool);

        let shell_type = if !features.enabled(Feature::ShellTool) {
            ConfigShellToolType::Disabled
        } else if features.enabled(Feature::UnifiedExec) {
            ConfigShellToolType::UnifiedExec
        } else {
            model_family.shell_type
        };

        let apply_patch_tool_type = match model_family.apply_patch_tool_type {
            Some(ApplyPatchToolType::Freeform) => Some(ApplyPatchToolType::Freeform),
            Some(ApplyPatchToolType::Function) => Some(ApplyPatchToolType::Function),
            None => {
                if include_apply_patch_tool {
                    Some(ApplyPatchToolType::Freeform)
                } else {
                    None
                }
            }
        };

        Self {
            shell_type,
            apply_patch_tool_type,
            web_search_request: include_web_search_request,
            include_view_image_tool,
            experimental_supported_tools: model_family.experimental_supported_tools.clone(),
        }
    }
}

/// Generic JSON‑Schema subset needed for our tool definitions
#[derive(Debug, Clone, Serialize, Deserialize, PartialEq)]
#[serde(tag = "type", rename_all = "lowercase")]
pub(crate) enum JsonSchema {
    Boolean {
        #[serde(skip_serializing_if = "Option::is_none")]
        description: Option<String>,
    },
    String {
        #[serde(skip_serializing_if = "Option::is_none")]
        description: Option<String>,
    },
    /// MCP schema allows "number" | "integer" for Number
    #[serde(alias = "integer")]
    Number {
        #[serde(skip_serializing_if = "Option::is_none")]
        description: Option<String>,
    },
    Array {
        items: Box<JsonSchema>,

        #[serde(skip_serializing_if = "Option::is_none")]
        description: Option<String>,
    },
    Object {
        properties: BTreeMap<String, JsonSchema>,
        #[serde(skip_serializing_if = "Option::is_none")]
        required: Option<Vec<String>>,
        #[serde(
            rename = "additionalProperties",
            skip_serializing_if = "Option::is_none"
        )]
        additional_properties: Option<AdditionalProperties>,
    },
}

/// Whether additional properties are allowed, and if so, any required schema
#[derive(Debug, Clone, Serialize, Deserialize, PartialEq)]
#[serde(untagged)]
pub(crate) enum AdditionalProperties {
    Boolean(bool),
    Schema(Box<JsonSchema>),
}

impl From<bool> for AdditionalProperties {
    fn from(b: bool) -> Self {
        Self::Boolean(b)
    }
}

impl From<JsonSchema> for AdditionalProperties {
    fn from(s: JsonSchema) -> Self {
        Self::Schema(Box::new(s))
    }
}

fn create_exec_command_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "cmd".to_string(),
        JsonSchema::String {
            description: Some("Shell command to execute.".to_string()),
        },
    );
    properties.insert(
        "workdir".to_string(),
        JsonSchema::String {
            description: Some(
                "Optional working directory to run the command in; defaults to the turn cwd."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "shell".to_string(),
        JsonSchema::String {
            description: Some("Shell binary to launch. Defaults to /bin/bash.".to_string()),
        },
    );
    properties.insert(
        "login".to_string(),
        JsonSchema::Boolean {
            description: Some(
                "Whether to run the shell with -l/-i semantics. Defaults to true.".to_string(),
            ),
        },
    );
    properties.insert(
        "yield_time_ms".to_string(),
        JsonSchema::Number {
            description: Some(
                "How long to wait (in milliseconds) for output before yielding.".to_string(),
            ),
        },
    );
    properties.insert(
        "max_output_tokens".to_string(),
        JsonSchema::Number {
            description: Some(
                "Maximum number of tokens to return. Excess output will be truncated.".to_string(),
            ),
        },
    );
    properties.insert(
        "with_escalated_permissions".to_string(),
        JsonSchema::Boolean {
            description: Some(
                "Whether to request escalated permissions. Set to true if command needs to be run without sandbox restrictions"
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "justification".to_string(),
        JsonSchema::String {
            description: Some(
                "Only set if with_escalated_permissions is true. 1-sentence explanation of why we want to run this command."
                    .to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "exec_command".to_string(),
        description:
            "Runs a command in a PTY, returning output or a session ID for ongoing interaction."
                .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["cmd".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_write_stdin_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "session_id".to_string(),
        JsonSchema::Number {
            description: Some("Identifier of the running unified exec session.".to_string()),
        },
    );
    properties.insert(
        "chars".to_string(),
        JsonSchema::String {
            description: Some("Bytes to write to stdin (may be empty to poll).".to_string()),
        },
    );
    properties.insert(
        "yield_time_ms".to_string(),
        JsonSchema::Number {
            description: Some(
                "How long to wait (in milliseconds) for output before yielding.".to_string(),
            ),
        },
    );
    properties.insert(
        "max_output_tokens".to_string(),
        JsonSchema::Number {
            description: Some(
                "Maximum number of tokens to return. Excess output will be truncated.".to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "write_stdin".to_string(),
        description:
            "Writes characters to an existing unified exec session and returns recent output."
                .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["session_id".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_shell_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "command".to_string(),
        JsonSchema::Array {
            items: Box::new(JsonSchema::String { description: None }),
            description: Some("The command to execute".to_string()),
        },
    );
    properties.insert(
        "workdir".to_string(),
        JsonSchema::String {
            description: Some("The working directory to execute the command in".to_string()),
        },
    );
    properties.insert(
        "timeout_ms".to_string(),
        JsonSchema::Number {
            description: Some("The timeout for the command in milliseconds".to_string()),
        },
    );

    properties.insert(
        "with_escalated_permissions".to_string(),
        JsonSchema::Boolean {
            description: Some("Whether to request escalated permissions. Set to true if command needs to be run without sandbox restrictions".to_string()),
        },
    );
    properties.insert(
        "justification".to_string(),
        JsonSchema::String {
            description: Some("Only set if with_escalated_permissions is true. 1-sentence explanation of why we want to run this command.".to_string()),
        },
    );

    let description  = if cfg!(windows) {
        r#"Runs a Powershell command (Windows) and returns its output. Arguments to `shell` will be passed to CreateProcessW(). Most commands should be prefixed with ["powershell.exe", "-Command"].
        
Examples of valid command strings:

- ls -a (show hidden): ["powershell.exe", "-Command", "Get-ChildItem -Force"]
- recursive find by name: ["powershell.exe", "-Command", "Get-ChildItem -Recurse -Filter *.py"]
- recursive grep: ["powershell.exe", "-Command", "Get-ChildItem -Path C:\\myrepo -Recurse | Select-String -Pattern 'TODO' -CaseSensitive"]
- ps aux | grep python: ["powershell.exe", "-Command", "Get-Process | Where-Object { $_.ProcessName -like '*python*' }"]
- setting an env var: ["powershell.exe", "-Command", "$env:FOO='bar'; echo $env:FOO"]
- running an inline Python script: ["powershell.exe", "-Command", "@'\\nprint('Hello, world!')\\n'@ | python -"]"#
    } else {
        r#"Runs a shell command and returns its output.
- The arguments to `shell` will be passed to execvp(). Most terminal commands should be prefixed with ["bash", "-lc"].
- Always set the `workdir` param when using the shell function. Do not use `cd` unless absolutely necessary."#
    }.to_string();

    ToolSpec::Function(ResponsesApiTool {
        name: "shell".to_string(),
        description,
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["command".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_shell_command_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "command".to_string(),
        JsonSchema::String {
            description: Some(
                "The shell script to execute in the user's default shell".to_string(),
            ),
        },
    );
    properties.insert(
        "workdir".to_string(),
        JsonSchema::String {
            description: Some("The working directory to execute the command in".to_string()),
        },
    );
    properties.insert(
        "login".to_string(),
        JsonSchema::Boolean {
            description: Some(
                "Whether to run the shell with login shell semantics. Defaults to true."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "timeout_ms".to_string(),
        JsonSchema::Number {
            description: Some("The timeout for the command in milliseconds".to_string()),
        },
    );
    properties.insert(
        "with_escalated_permissions".to_string(),
        JsonSchema::Boolean {
            description: Some("Whether to request escalated permissions. Set to true if command needs to be run without sandbox restrictions".to_string()),
        },
    );
    properties.insert(
        "justification".to_string(),
        JsonSchema::String {
            description: Some("Only set if with_escalated_permissions is true. 1-sentence explanation of why we want to run this command.".to_string()),
        },
    );

    let description = if cfg!(windows) {
        r#"Runs a Powershell command (Windows) and returns its output.
        
Examples of valid command strings:

- ls -a (show hidden): "Get-ChildItem -Force"
- recursive find by name: "Get-ChildItem -Recurse -Filter *.py"
- recursive grep: "Get-ChildItem -Path C:\\myrepo -Recurse | Select-String -Pattern 'TODO' -CaseSensitive"
- ps aux | grep python: "Get-Process | Where-Object { $_.ProcessName -like '*python*' }"
- setting an env var: "$env:FOO='bar'; echo $env:FOO"
- running an inline Python script: "@'\\nprint('Hello, world!')\\n'@ | python -"#
    } else {
        r#"Runs a shell command and returns its output.
- Always set the `workdir` param when using the shell_command function. Do not use `cd` unless absolutely necessary."#
    }.to_string();

    ToolSpec::Function(ResponsesApiTool {
        name: "shell_command".to_string(),
        description,
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["command".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_view_image_tool() -> ToolSpec {
    // Support only local filesystem path.
    let mut properties = BTreeMap::new();
    properties.insert(
        "path".to_string(),
        JsonSchema::String {
            description: Some("Local filesystem path to an image file".to_string()),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "view_image".to_string(),
        description:
            "Attach a local image (by filesystem path) to the conversation context for this turn."
                .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["path".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_test_sync_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "sleep_before_ms".to_string(),
        JsonSchema::Number {
            description: Some("Optional delay in milliseconds before any other action".to_string()),
        },
    );
    properties.insert(
        "sleep_after_ms".to_string(),
        JsonSchema::Number {
            description: Some(
                "Optional delay in milliseconds after completing the barrier".to_string(),
            ),
        },
    );

    let mut barrier_properties = BTreeMap::new();
    barrier_properties.insert(
        "id".to_string(),
        JsonSchema::String {
            description: Some(
                "Identifier shared by concurrent calls that should rendezvous".to_string(),
            ),
        },
    );
    barrier_properties.insert(
        "participants".to_string(),
        JsonSchema::Number {
            description: Some(
                "Number of tool calls that must arrive before the barrier opens".to_string(),
            ),
        },
    );
    barrier_properties.insert(
        "timeout_ms".to_string(),
        JsonSchema::Number {
            description: Some("Maximum time in milliseconds to wait at the barrier".to_string()),
        },
    );

    properties.insert(
        "barrier".to_string(),
        JsonSchema::Object {
            properties: barrier_properties,
            required: Some(vec!["id".to_string(), "participants".to_string()]),
            additional_properties: Some(false.into()),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "test_sync_tool".to_string(),
        description: "Internal synchronization helper used by Codex integration tests.".to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: None,
            additional_properties: Some(false.into()),
        },
    })
}

fn create_grep_files_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "pattern".to_string(),
        JsonSchema::String {
            description: Some("Regular expression pattern to search for.".to_string()),
        },
    );
    properties.insert(
        "include".to_string(),
        JsonSchema::String {
            description: Some(
                "Optional glob that limits which files are searched (e.g. \"*.rs\" or \
                 \"*.{ts,tsx}\")."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "path".to_string(),
        JsonSchema::String {
            description: Some(
                "Directory or file path to search. Defaults to the session's working directory."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "limit".to_string(),
        JsonSchema::Number {
            description: Some(
                "Maximum number of file paths to return (defaults to 100).".to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "grep_files".to_string(),
        description: "Finds files whose contents match the pattern and lists them by modification \
                      time."
            .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["pattern".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_read_file_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "file_path".to_string(),
        JsonSchema::String {
            description: Some("Absolute path to the file".to_string()),
        },
    );
    properties.insert(
        "offset".to_string(),
        JsonSchema::Number {
            description: Some(
                "The line number to start reading from. Must be 1 or greater.".to_string(),
            ),
        },
    );
    properties.insert(
        "limit".to_string(),
        JsonSchema::Number {
            description: Some("The maximum number of lines to return.".to_string()),
        },
    );
    properties.insert(
        "mode".to_string(),
        JsonSchema::String {
            description: Some(
                "Optional mode selector: \"slice\" for simple ranges (default) or \"indentation\" \
                 to expand around an anchor line."
                    .to_string(),
            ),
        },
    );

    let mut indentation_properties = BTreeMap::new();
    indentation_properties.insert(
        "anchor_line".to_string(),
        JsonSchema::Number {
            description: Some(
                "Anchor line to center the indentation lookup on (defaults to offset).".to_string(),
            ),
        },
    );
    indentation_properties.insert(
        "max_levels".to_string(),
        JsonSchema::Number {
            description: Some(
                "How many parent indentation levels (smaller indents) to include.".to_string(),
            ),
        },
    );
    indentation_properties.insert(
        "include_siblings".to_string(),
        JsonSchema::Boolean {
            description: Some(
                "When true, include additional blocks that share the anchor indentation."
                    .to_string(),
            ),
        },
    );
    indentation_properties.insert(
        "include_header".to_string(),
        JsonSchema::Boolean {
            description: Some(
                "Include doc comments or attributes directly above the selected block.".to_string(),
            ),
        },
    );
    indentation_properties.insert(
        "max_lines".to_string(),
        JsonSchema::Number {
            description: Some(
                "Hard cap on the number of lines returned when using indentation mode.".to_string(),
            ),
        },
    );
    properties.insert(
        "indentation".to_string(),
        JsonSchema::Object {
            properties: indentation_properties,
            required: None,
            additional_properties: Some(false.into()),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "read_file".to_string(),
        description:
            "Reads a local file with 1-indexed line numbers, supporting slice and indentation-aware block modes."
                .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["file_path".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_list_dir_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "dir_path".to_string(),
        JsonSchema::String {
            description: Some("Absolute path to the directory to list.".to_string()),
        },
    );
    properties.insert(
        "offset".to_string(),
        JsonSchema::Number {
            description: Some(
                "The entry number to start listing from. Must be 1 or greater.".to_string(),
            ),
        },
    );
    properties.insert(
        "limit".to_string(),
        JsonSchema::Number {
            description: Some("The maximum number of entries to return.".to_string()),
        },
    );
    properties.insert(
        "depth".to_string(),
        JsonSchema::Number {
            description: Some(
                "The maximum directory depth to traverse. Must be 1 or greater.".to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "list_dir".to_string(),
        description:
            "Lists entries in a local directory with 1-indexed entry numbers and simple type labels."
                .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["dir_path".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}

fn create_list_mcp_resources_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "server".to_string(),
        JsonSchema::String {
            description: Some(
                "Optional MCP server name. When omitted, lists resources from every configured server."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "cursor".to_string(),
        JsonSchema::String {
            description: Some(
                "Opaque cursor returned by a previous list_mcp_resources call for the same server."
                    .to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "list_mcp_resources".to_string(),
        description: "Lists resources provided by MCP servers. Resources allow servers to share data that provides context to language models, such as files, database schemas, or application-specific information. Prefer resources over web search when possible.".to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: None,
            additional_properties: Some(false.into()),
        },
    })
}

fn create_list_mcp_resource_templates_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "server".to_string(),
        JsonSchema::String {
            description: Some(
                "Optional MCP server name. When omitted, lists resource templates from all configured servers."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "cursor".to_string(),
        JsonSchema::String {
            description: Some(
                "Opaque cursor returned by a previous list_mcp_resource_templates call for the same server."
                    .to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "list_mcp_resource_templates".to_string(),
        description: "Lists resource templates provided by MCP servers. Parameterized resource templates allow servers to share data that takes parameters and provides context to language models, such as files, database schemas, or application-specific information. Prefer resource templates over web search when possible.".to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: None,
            additional_properties: Some(false.into()),
        },
    })
}

fn create_read_mcp_resource_tool() -> ToolSpec {
    let mut properties = BTreeMap::new();
    properties.insert(
        "server".to_string(),
        JsonSchema::String {
            description: Some(
                "MCP server name exactly as configured. Must match the 'server' field returned by list_mcp_resources."
                    .to_string(),
            ),
        },
    );
    properties.insert(
        "uri".to_string(),
        JsonSchema::String {
            description: Some(
                "Resource URI to read. Must be one of the URIs returned by list_mcp_resources."
                    .to_string(),
            ),
        },
    );

    ToolSpec::Function(ResponsesApiTool {
        name: "read_mcp_resource".to_string(),
        description:
            "Read a specific resource from an MCP server given the server name and resource URI."
                .to_string(),
        strict: false,
        parameters: JsonSchema::Object {
            properties,
            required: Some(vec!["server".to_string(), "uri".to_string()]),
            additional_properties: Some(false.into()),
        },
    })
}
/// TODO(dylan): deprecate once we get rid of json tool
#[derive(Serialize, Deserialize)]
pub(crate) struct ApplyPatchToolArgs {
    pub(crate) input: String,
}

/// Returns JSON values that are compatible with Function Calling in the
/// Responses API:
/// https://platform.openai.com/docs/guides/function-calling?api-mode=responses
pub fn create_tools_json_for_responses_api(
    tools: &[ToolSpec],
) -> crate::error::Result<Vec<serde_json::Value>> {
    let mut tools_json = Vec::new();

    for tool in tools {
        let json = serde_json::to_value(tool)?;
        tools_json.push(json);
    }

    Ok(tools_json)
}
/// Returns JSON values that are compatible with Function Calling in the
/// Chat Completions API:
/// https://platform.openai.com/docs/guides/function-calling?api-mode=chat
pub(crate) fn create_tools_json_for_chat_completions_api(
    tools: &[ToolSpec],
) -> crate::error::Result<Vec<serde_json::Value>> {
    // We start with the JSON for the Responses API and than rewrite it to match
    // the chat completions tool call format.
    let responses_api_tools_json = create_tools_json_for_responses_api(tools)?;
    let tools_json = responses_api_tools_json
        .into_iter()
        .filter_map(|mut tool| {
            if tool.get("type") != Some(&serde_json::Value::String("function".to_string())) {
                return None;
            }

            if let Some(map) = tool.as_object_mut() {
                let name = map
                    .get("name")
                    .and_then(|v| v.as_str())
                    .unwrap_or_default()
                    .to_string();
                // Remove "type" field as it is not needed in chat completions.
                map.remove("type");
                Some(json!({
                    "type": "function",
                    "name": name,
                    "function": map,
                }))
            } else {
                None
            }
        })
        .collect::<Vec<serde_json::Value>>();
    Ok(tools_json)
}

pub(crate) fn mcp_tool_to_openai_tool(
    fully_qualified_name: String,
    tool: mcp_types::Tool,
) -> Result<ResponsesApiTool, serde_json::Error> {
    let mcp_types::Tool {
        description,
        mut input_schema,
        ..
    } = tool;

    // OpenAI models mandate the "properties" field in the schema. The Agents
    // SDK fixed this by inserting an empty object for "properties" if it is not
    // already present https://github.com/openai/openai-agents-python/issues/449
    // so here we do the same.
    if input_schema.properties.is_none() {
        input_schema.properties = Some(serde_json::Value::Object(serde_json::Map::new()));
    }

    // Serialize to a raw JSON value so we can sanitize schemas coming from MCP
    // servers. Some servers omit the top-level or nested `type` in JSON
    // Schemas (e.g. using enum/anyOf), or use unsupported variants like
    // `integer`. Our internal JsonSchema is a small subset and requires
    // `type`, so we coerce/sanitize here for compatibility.
    let mut serialized_input_schema = serde_json::to_value(input_schema)?;
    sanitize_json_schema(&mut serialized_input_schema);
    let input_schema = serde_json::from_value::<JsonSchema>(serialized_input_schema)?;

    Ok(ResponsesApiTool {
        name: fully_qualified_name,
        description: description.unwrap_or_default(),
        strict: false,
        parameters: input_schema,
    })
}

/// Sanitize a JSON Schema (as serde_json::Value) so it can fit our limited
/// JsonSchema enum. This function:
/// - Ensures every schema object has a "type". If missing, infers it from
///   common keywords (properties => object, items => array, enum/const/format => string)
///   and otherwise defaults to "string".
/// - Fills required child fields (e.g. array items, object properties) with
///   permissive defaults when absent.
fn sanitize_json_schema(value: &mut JsonValue) {
    match value {
        JsonValue::Bool(_) => {
            // JSON Schema boolean form: true/false. Coerce to an accept-all string.
            *value = json!({ "type": "string" });
        }
        JsonValue::Array(arr) => {
            for v in arr.iter_mut() {
                sanitize_json_schema(v);
            }
        }
        JsonValue::Object(map) => {
            // First, recursively sanitize known nested schema holders
            if let Some(props) = map.get_mut("properties")
                && let Some(props_map) = props.as_object_mut()
            {
                for (_k, v) in props_map.iter_mut() {
                    sanitize_json_schema(v);
                }
            }
            if let Some(items) = map.get_mut("items") {
                sanitize_json_schema(items);
            }
            // Some schemas use oneOf/anyOf/allOf - sanitize their entries
            for combiner in ["oneOf", "anyOf", "allOf", "prefixItems"] {
                if let Some(v) = map.get_mut(combiner) {
                    sanitize_json_schema(v);
                }
            }

            // Normalize/ensure type
            let mut ty = map.get("type").and_then(|v| v.as_str()).map(str::to_string);

            // If type is an array (union), pick first supported; else leave to inference
            if ty.is_none()
                && let Some(JsonValue::Array(types)) = map.get("type")
            {
                for t in types {
                    if let Some(tt) = t.as_str()
                        && matches!(
                            tt,
                            "object" | "array" | "string" | "number" | "integer" | "boolean"
                        )
                    {
                        ty = Some(tt.to_string());
                        break;
                    }
                }
            }

            // Infer type if still missing
            if ty.is_none() {
                if map.contains_key("properties")
                    || map.contains_key("required")
                    || map.contains_key("additionalProperties")
                {
                    ty = Some("object".to_string());
                } else if map.contains_key("items") || map.contains_key("prefixItems") {
                    ty = Some("array".to_string());
                } else if map.contains_key("enum")
                    || map.contains_key("const")
                    || map.contains_key("format")
                {
                    ty = Some("string".to_string());
                } else if map.contains_key("minimum")
                    || map.contains_key("maximum")
                    || map.contains_key("exclusiveMinimum")
                    || map.contains_key("exclusiveMaximum")
                    || map.contains_key("multipleOf")
                {
                    ty = Some("number".to_string());
                }
            }
            // If we still couldn't infer, default to string
            let ty = ty.unwrap_or_else(|| "string".to_string());
            map.insert("type".to_string(), JsonValue::String(ty.to_string()));

            // Ensure object schemas have properties map
            if ty == "object" {
                if !map.contains_key("properties") {
                    map.insert(
                        "properties".to_string(),
                        JsonValue::Object(serde_json::Map::new()),
                    );
                }
                // If additionalProperties is an object schema, sanitize it too.
                // Leave booleans as-is, since JSON Schema allows boolean here.
                if let Some(ap) = map.get_mut("additionalProperties") {
                    let is_bool = matches!(ap, JsonValue::Bool(_));
                    if !is_bool {
                        sanitize_json_schema(ap);
                    }
                }
            }

            // Ensure array schemas have items
            if ty == "array" && !map.contains_key("items") {
                map.insert("items".to_string(), json!({ "type": "string" }));
            }
        }
        _ => {}
    }
}

/// Builds the tool registry builder while collecting tool specs for later serialization.
pub(crate) fn build_specs(
    config: &ToolsConfig,
    mcp_tools: Option<HashMap<String, mcp_types::Tool>>,
) -> ToolRegistryBuilder {
    use crate::tools::handlers::ApplyPatchHandler;
    use crate::tools::handlers::GrepFilesHandler;
    use crate::tools::handlers::ListDirHandler;
    use crate::tools::handlers::McpHandler;
    use crate::tools::handlers::McpResourceHandler;
    use crate::tools::handlers::PlanHandler;
    use crate::tools::handlers::ReadFileHandler;
    use crate::tools::handlers::ShellCommandHandler;
    use crate::tools::handlers::ShellHandler;
    use crate::tools::handlers::TestSyncHandler;
    use crate::tools::handlers::UnifiedExecHandler;
    use crate::tools::handlers::ViewImageHandler;
    use std::sync::Arc;

    let mut builder = ToolRegistryBuilder::new();

    let shell_handler = Arc::new(ShellHandler);
    let unified_exec_handler = Arc::new(UnifiedExecHandler);
    let plan_handler = Arc::new(PlanHandler);
    let apply_patch_handler = Arc::new(ApplyPatchHandler);
    let view_image_handler = Arc::new(ViewImageHandler);
    let mcp_handler = Arc::new(McpHandler);
    let mcp_resource_handler = Arc::new(McpResourceHandler);
    let shell_command_handler = Arc::new(ShellCommandHandler);

    match &config.shell_type {
        ConfigShellToolType::Default => {
            builder.push_spec(create_shell_tool());
        }
        ConfigShellToolType::Local => {
            builder.push_spec(ToolSpec::LocalShell {});
        }
        ConfigShellToolType::UnifiedExec => {
            builder.push_spec(create_exec_command_tool());
            builder.push_spec(create_write_stdin_tool());
            builder.register_handler("exec_command", unified_exec_handler.clone());
            builder.register_handler("write_stdin", unified_exec_handler);
        }
        ConfigShellToolType::Disabled => {
            // Do nothing.
        }
        ConfigShellToolType::ShellCommand => {
            builder.push_spec(create_shell_command_tool());
        }
    }

    if config.shell_type != ConfigShellToolType::Disabled {
        // Always register shell aliases so older prompts remain compatible.
        builder.register_handler("shell", shell_handler.clone());
        builder.register_handler("container.exec", shell_handler.clone());
        builder.register_handler("local_shell", shell_handler);
        builder.register_handler("shell_command", shell_command_handler);
    }

    builder.push_spec_with_parallel_support(create_list_mcp_resources_tool(), true);
    builder.push_spec_with_parallel_support(create_list_mcp_resource_templates_tool(), true);
    builder.push_spec_with_parallel_support(create_read_mcp_resource_tool(), true);
    builder.register_handler("list_mcp_resources", mcp_resource_handler.clone());
    builder.register_handler("list_mcp_resource_templates", mcp_resource_handler.clone());
    builder.register_handler("read_mcp_resource", mcp_resource_handler);

    builder.push_spec(PLAN_TOOL.clone());
    builder.register_handler("update_plan", plan_handler);

    if let Some(apply_patch_tool_type) = &config.apply_patch_tool_type {
        match apply_patch_tool_type {
            ApplyPatchToolType::Freeform => {
                builder.push_spec(create_apply_patch_freeform_tool());
            }
            ApplyPatchToolType::Function => {
                builder.push_spec(create_apply_patch_json_tool());
            }
        }
        builder.register_handler("apply_patch", apply_patch_handler);
    }

    if config
        .experimental_supported_tools
        .contains(&"grep_files".to_string())
    {
        let grep_files_handler = Arc::new(GrepFilesHandler);
        builder.push_spec_with_parallel_support(create_grep_files_tool(), true);
        builder.register_handler("grep_files", grep_files_handler);
    }

    if config
        .experimental_supported_tools
        .contains(&"read_file".to_string())
    {
        let read_file_handler = Arc::new(ReadFileHandler);
        builder.push_spec_with_parallel_support(create_read_file_tool(), true);
        builder.register_handler("read_file", read_file_handler);
    }

    if config
        .experimental_supported_tools
        .iter()
        .any(|tool| tool == "list_dir")
    {
        let list_dir_handler = Arc::new(ListDirHandler);
        builder.push_spec_with_parallel_support(create_list_dir_tool(), true);
        builder.register_handler("list_dir", list_dir_handler);
    }

    if config
        .experimental_supported_tools
        .contains(&"test_sync_tool".to_string())
    {
        let test_sync_handler = Arc::new(TestSyncHandler);
        builder.push_spec_with_parallel_support(create_test_sync_tool(), true);
        builder.register_handler("test_sync_tool", test_sync_handler);
    }

    if config.web_search_request {
        builder.push_spec(ToolSpec::WebSearch {});
    }

    if config.include_view_image_tool {
        builder.push_spec_with_parallel_support(create_view_image_tool(), true);
        builder.register_handler("view_image", view_image_handler);
    }

    if let Some(mcp_tools) = mcp_tools {
        let mut entries: Vec<(String, mcp_types::Tool)> = mcp_tools.into_iter().collect();
        entries.sort_by(|a, b| a.0.cmp(&b.0));

        for (name, tool) in entries.into_iter() {
            match mcp_tool_to_openai_tool(name.clone(), tool.clone()) {
                Ok(converted_tool) => {
                    builder.push_spec(ToolSpec::Function(converted_tool));
                    builder.register_handler(name, mcp_handler.clone());
                }
                Err(e) => {
                    tracing::error!("Failed to convert {name:?} MCP tool to OpenAI tool: {e:?}");
                }
            }
        }
    }

    builder
}

#[cfg(test)]
mod tests {
    use crate::client_common::tools::FreeformTool;
    use crate::openai_models::model_family::find_family_for_model;
    use crate::tools::registry::ConfiguredToolSpec;
    use mcp_types::ToolInputSchema;
    use pretty_assertions::assert_eq;

    use super::*;

    fn tool_name(tool: &ToolSpec) -> &str {
        match tool {
            ToolSpec::Function(ResponsesApiTool { name, .. }) => name,
            ToolSpec::LocalShell {} => "local_shell",
            ToolSpec::WebSearch {} => "web_search",
            ToolSpec::Freeform(FreeformTool { name, .. }) => name,
        }
    }

    // Avoid order-based assertions; compare via set containment instead.
    fn assert_contains_tool_names(tools: &[ConfiguredToolSpec], expected_subset: &[&str]) {
        use std::collections::HashSet;
        let mut names = HashSet::new();
        let mut duplicates = Vec::new();
        for name in tools.iter().map(|t| tool_name(&t.spec)) {
            if !names.insert(name) {
                duplicates.push(name);
            }
        }
        assert!(
            duplicates.is_empty(),
            "duplicate tool entries detected: {duplicates:?}"
        );
        for expected in expected_subset {
            assert!(
                names.contains(expected),
                "expected tool {expected} to be present; had: {names:?}"
            );
        }
    }

    fn shell_tool_name(config: &ToolsConfig) -> Option<&'static str> {
        match config.shell_type {
            ConfigShellToolType::Default => Some("shell"),
            ConfigShellToolType::Local => Some("local_shell"),
            ConfigShellToolType::UnifiedExec => None,
            ConfigShellToolType::Disabled => None,
            ConfigShellToolType::ShellCommand => Some("shell_command"),
        }
    }

    fn find_tool<'a>(
        tools: &'a [ConfiguredToolSpec],
        expected_name: &str,
    ) -> &'a ConfiguredToolSpec {
        tools
            .iter()
            .find(|tool| tool_name(&tool.spec) == expected_name)
            .unwrap_or_else(|| panic!("expected tool {expected_name}"))
    }

    fn strip_descriptions_schema(schema: &mut JsonSchema) {
        match schema {
            JsonSchema::Boolean { description }
            | JsonSchema::String { description }
            | JsonSchema::Number { description } => {
                *description = None;
            }
            JsonSchema::Array { items, description } => {
                strip_descriptions_schema(items);
                *description = None;
            }
            JsonSchema::Object {
                properties,
                required: _,
                additional_properties,
            } => {
                for v in properties.values_mut() {
                    strip_descriptions_schema(v);
                }
                if let Some(AdditionalProperties::Schema(s)) = additional_properties {
                    strip_descriptions_schema(s);
                }
            }
        }
    }

    fn strip_descriptions_tool(spec: &mut ToolSpec) {
        match spec {
            ToolSpec::Function(ResponsesApiTool { parameters, .. }) => {
                strip_descriptions_schema(parameters);
            }
            ToolSpec::Freeform(_) | ToolSpec::LocalShell {} | ToolSpec::WebSearch {} => {}
        }
    }

    #[test]
    fn test_full_toolset_specs_for_gpt5_codex_unified_exec_web_search() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        features.enable(Feature::ViewImageTool);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });
        let (tools, _) = build_specs(&config, None).build();

        // Build actual map name -> spec
        use std::collections::BTreeMap;
        use std::collections::HashSet;
        let mut actual: BTreeMap<String, ToolSpec> = BTreeMap::new();
        let mut duplicate_names = Vec::new();
        for t in &tools {
            let name = tool_name(&t.spec).to_string();
            if actual.insert(name.clone(), t.spec.clone()).is_some() {
                duplicate_names.push(name);
            }
        }
        assert!(
            duplicate_names.is_empty(),
            "duplicate tool entries detected: {duplicate_names:?}"
        );

        // Build expected from the same helpers used by the builder.
        let mut expected: BTreeMap<String, ToolSpec> = BTreeMap::new();
        for spec in [
            create_exec_command_tool(),
            create_write_stdin_tool(),
            create_list_mcp_resources_tool(),
            create_list_mcp_resource_templates_tool(),
            create_read_mcp_resource_tool(),
            PLAN_TOOL.clone(),
            create_apply_patch_freeform_tool(),
            ToolSpec::WebSearch {},
            create_view_image_tool(),
        ] {
            expected.insert(tool_name(&spec).to_string(), spec);
        }

        // Exact name set match — this is the only test allowed to fail when tools change.
        let actual_names: HashSet<_> = actual.keys().cloned().collect();
        let expected_names: HashSet<_> = expected.keys().cloned().collect();
        assert_eq!(actual_names, expected_names, "tool name set mismatch");

        // Compare specs ignoring human-readable descriptions.
        for name in expected.keys() {
            let mut a = actual.get(name).expect("present").clone();
            let mut e = expected.get(name).expect("present").clone();
            strip_descriptions_tool(&mut a);
            strip_descriptions_tool(&mut e);
            assert_eq!(a, e, "spec mismatch for {name}");
        }
    }

    fn assert_model_tools(model_family: &str, features: &Features, expected_tools: &[&str]) {
        let model_family = find_family_for_model(model_family);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features,
        });
        let (tools, _) = build_specs(&config, Some(HashMap::new())).build();
        let tool_names = tools.iter().map(|t| t.spec.name()).collect::<Vec<_>>();
        assert_eq!(&tool_names, &expected_tools,);
    }

    #[test]
    fn test_build_specs_gpt5_codex_default() {
        assert_model_tools(
            "gpt-5-codex",
            &Features::with_defaults(),
            &[
                "shell_command",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_build_specs_gpt51_codex_default() {
        assert_model_tools(
            "gpt-5.1-codex",
            &Features::with_defaults(),
            &[
                "shell_command",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_build_specs_gpt5_codex_unified_exec_web_search() {
        assert_model_tools(
            "gpt-5-codex",
            Features::with_defaults()
                .enable(Feature::UnifiedExec)
                .enable(Feature::WebSearchRequest),
            &[
                "exec_command",
                "write_stdin",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "web_search",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_build_specs_gpt51_codex_unified_exec_web_search() {
        assert_model_tools(
            "gpt-5.1-codex",
            Features::with_defaults()
                .enable(Feature::UnifiedExec)
                .enable(Feature::WebSearchRequest),
            &[
                "exec_command",
                "write_stdin",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "web_search",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_codex_mini_defaults() {
        assert_model_tools(
            "codex-mini-latest",
            &Features::with_defaults(),
            &[
                "local_shell",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_codex_5_1_mini_defaults() {
        assert_model_tools(
            "gpt-5.1-codex-mini",
            &Features::with_defaults(),
            &[
                "shell_command",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_gpt_5_defaults() {
        assert_model_tools(
            "gpt-5",
            &Features::with_defaults(),
            &[
                "shell",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_gpt_5_1_defaults() {
        assert_model_tools(
            "gpt-5.1",
            &Features::with_defaults(),
            &[
                "shell_command",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_exp_5_1_defaults() {
        assert_model_tools(
            "exp-5.1",
            &Features::with_defaults(),
            &[
                "exec_command",
                "write_stdin",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "apply_patch",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_codex_mini_unified_exec_web_search() {
        assert_model_tools(
            "codex-mini-latest",
            Features::with_defaults()
                .enable(Feature::UnifiedExec)
                .enable(Feature::WebSearchRequest),
            &[
                "exec_command",
                "write_stdin",
                "list_mcp_resources",
                "list_mcp_resource_templates",
                "read_mcp_resource",
                "update_plan",
                "web_search",
                "view_image",
            ],
        );
    }

    #[test]
    fn test_build_specs_default_shell_present() {
        let model_family = find_family_for_model("o3");
        let mut features = Features::with_defaults();
        features.enable(Feature::WebSearchRequest);
        features.enable(Feature::UnifiedExec);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });
        let (tools, _) = build_specs(&config, Some(HashMap::new())).build();

        // Only check the shell variant and a couple of core tools.
        let mut subset = vec!["exec_command", "write_stdin", "update_plan"];
        if let Some(shell_tool) = shell_tool_name(&config) {
            subset.push(shell_tool);
        }
        assert_contains_tool_names(&tools, &subset);
    }

    #[test]
    #[ignore]
    fn test_parallel_support_flags() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.disable(Feature::ViewImageTool);
        features.enable(Feature::UnifiedExec);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });
        let (tools, _) = build_specs(&config, None).build();

        assert!(!find_tool(&tools, "exec_command").supports_parallel_tool_calls);
        assert!(!find_tool(&tools, "write_stdin").supports_parallel_tool_calls);
        assert!(find_tool(&tools, "grep_files").supports_parallel_tool_calls);
        assert!(find_tool(&tools, "list_dir").supports_parallel_tool_calls);
        assert!(find_tool(&tools, "read_file").supports_parallel_tool_calls);
    }

    #[test]
    fn test_test_model_family_includes_sync_tool() {
        let model_family = find_family_for_model("test-gpt-5-codex");
        let mut features = Features::with_defaults();
        features.disable(Feature::ViewImageTool);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });
        let (tools, _) = build_specs(&config, None).build();

        assert!(
            tools
                .iter()
                .any(|tool| tool_name(&tool.spec) == "test_sync_tool")
        );
        assert!(
            tools
                .iter()
                .any(|tool| tool_name(&tool.spec) == "read_file")
        );
        assert!(
            tools
                .iter()
                .any(|tool| tool_name(&tool.spec) == "grep_files")
        );
        assert!(tools.iter().any(|tool| tool_name(&tool.spec) == "list_dir"));
    }

    #[test]
    fn test_build_specs_mcp_tools_converted() {
        let model_family = find_family_for_model("o3");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });
        let (tools, _) = build_specs(
            &config,
            Some(HashMap::from([(
                "test_server/do_something_cool".to_string(),
                mcp_types::Tool {
                    name: "do_something_cool".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({
                            "string_argument": {
                                "type": "string",
                            },
                            "number_argument": {
                                "type": "number",
                            },
                            "object_argument": {
                                "type": "object",
                                "properties": {
                                    "string_property": { "type": "string" },
                                    "number_property": { "type": "number" },
                                },
                                "required": [
                                    "string_property",
                                    "number_property",
                                ],
                                "additionalProperties": Some(false),
                            },
                        })),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("Do something cool".to_string()),
                },
            )])),
        )
        .build();

        let tool = find_tool(&tools, "test_server/do_something_cool");
        assert_eq!(
            &tool.spec,
            &ToolSpec::Function(ResponsesApiTool {
                name: "test_server/do_something_cool".to_string(),
                parameters: JsonSchema::Object {
                    properties: BTreeMap::from([
                        (
                            "string_argument".to_string(),
                            JsonSchema::String { description: None }
                        ),
                        (
                            "number_argument".to_string(),
                            JsonSchema::Number { description: None }
                        ),
                        (
                            "object_argument".to_string(),
                            JsonSchema::Object {
                                properties: BTreeMap::from([
                                    (
                                        "string_property".to_string(),
                                        JsonSchema::String { description: None }
                                    ),
                                    (
                                        "number_property".to_string(),
                                        JsonSchema::Number { description: None }
                                    ),
                                ]),
                                required: Some(vec![
                                    "string_property".to_string(),
                                    "number_property".to_string(),
                                ]),
                                additional_properties: Some(false.into()),
                            },
                        ),
                    ]),
                    required: None,
                    additional_properties: None,
                },
                description: "Do something cool".to_string(),
                strict: false,
            })
        );
    }

    #[test]
    fn test_build_specs_mcp_tools_sorted_by_name() {
        let model_family = find_family_for_model("o3");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });

        // Intentionally construct a map with keys that would sort alphabetically.
        let tools_map: HashMap<String, mcp_types::Tool> = HashMap::from([
            (
                "test_server/do".to_string(),
                mcp_types::Tool {
                    name: "a".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({})),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("a".to_string()),
                },
            ),
            (
                "test_server/something".to_string(),
                mcp_types::Tool {
                    name: "b".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({})),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("b".to_string()),
                },
            ),
            (
                "test_server/cool".to_string(),
                mcp_types::Tool {
                    name: "c".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({})),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("c".to_string()),
                },
            ),
        ]);

        let (tools, _) = build_specs(&config, Some(tools_map)).build();

        // Only assert that the MCP tools themselves are sorted by fully-qualified name.
        let mcp_names: Vec<_> = tools
            .iter()
            .map(|t| tool_name(&t.spec).to_string())
            .filter(|n| n.starts_with("test_server/"))
            .collect();
        let expected = vec![
            "test_server/cool".to_string(),
            "test_server/do".to_string(),
            "test_server/something".to_string(),
        ];
        assert_eq!(mcp_names, expected);
    }

    #[test]
    fn test_mcp_tool_property_missing_type_defaults_to_string() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });

        let (tools, _) = build_specs(
            &config,
            Some(HashMap::from([(
                "dash/search".to_string(),
                mcp_types::Tool {
                    name: "search".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({
                            "query": {
                                "description": "search query"
                            }
                        })),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("Search docs".to_string()),
                },
            )])),
        )
        .build();

        let tool = find_tool(&tools, "dash/search");
        assert_eq!(
            tool.spec,
            ToolSpec::Function(ResponsesApiTool {
                name: "dash/search".to_string(),
                parameters: JsonSchema::Object {
                    properties: BTreeMap::from([(
                        "query".to_string(),
                        JsonSchema::String {
                            description: Some("search query".to_string())
                        }
                    )]),
                    required: None,
                    additional_properties: None,
                },
                description: "Search docs".to_string(),
                strict: false,
            })
        );
    }

    #[test]
    fn test_mcp_tool_integer_normalized_to_number() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });

        let (tools, _) = build_specs(
            &config,
            Some(HashMap::from([(
                "dash/paginate".to_string(),
                mcp_types::Tool {
                    name: "paginate".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({
                            "page": { "type": "integer" }
                        })),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("Pagination".to_string()),
                },
            )])),
        )
        .build();

        let tool = find_tool(&tools, "dash/paginate");
        assert_eq!(
            tool.spec,
            ToolSpec::Function(ResponsesApiTool {
                name: "dash/paginate".to_string(),
                parameters: JsonSchema::Object {
                    properties: BTreeMap::from([(
                        "page".to_string(),
                        JsonSchema::Number { description: None }
                    )]),
                    required: None,
                    additional_properties: None,
                },
                description: "Pagination".to_string(),
                strict: false,
            })
        );
    }

    #[test]
    fn test_mcp_tool_array_without_items_gets_default_string_items() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        features.enable(Feature::ApplyPatchFreeform);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });

        let (tools, _) = build_specs(
            &config,
            Some(HashMap::from([(
                "dash/tags".to_string(),
                mcp_types::Tool {
                    name: "tags".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({
                            "tags": { "type": "array" }
                        })),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("Tags".to_string()),
                },
            )])),
        )
        .build();

        let tool = find_tool(&tools, "dash/tags");
        assert_eq!(
            tool.spec,
            ToolSpec::Function(ResponsesApiTool {
                name: "dash/tags".to_string(),
                parameters: JsonSchema::Object {
                    properties: BTreeMap::from([(
                        "tags".to_string(),
                        JsonSchema::Array {
                            items: Box::new(JsonSchema::String { description: None }),
                            description: None
                        }
                    )]),
                    required: None,
                    additional_properties: None,
                },
                description: "Tags".to_string(),
                strict: false,
            })
        );
    }

    #[test]
    fn test_mcp_tool_anyof_defaults_to_string() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });

        let (tools, _) = build_specs(
            &config,
            Some(HashMap::from([(
                "dash/value".to_string(),
                mcp_types::Tool {
                    name: "value".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({
                            "value": { "anyOf": [ { "type": "string" }, { "type": "number" } ] }
                        })),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("AnyOf Value".to_string()),
                },
            )])),
        )
        .build();

        let tool = find_tool(&tools, "dash/value");
        assert_eq!(
            tool.spec,
            ToolSpec::Function(ResponsesApiTool {
                name: "dash/value".to_string(),
                parameters: JsonSchema::Object {
                    properties: BTreeMap::from([(
                        "value".to_string(),
                        JsonSchema::String { description: None }
                    )]),
                    required: None,
                    additional_properties: None,
                },
                description: "AnyOf Value".to_string(),
                strict: false,
            })
        );
    }

    #[test]
    fn test_shell_tool() {
        let tool = super::create_shell_tool();
        let ToolSpec::Function(ResponsesApiTool {
            description, name, ..
        }) = &tool
        else {
            panic!("expected function tool");
        };
        assert_eq!(name, "shell");

        let expected = if cfg!(windows) {
            r#"Runs a Powershell command (Windows) and returns its output. Arguments to `shell` will be passed to CreateProcessW(). Most commands should be prefixed with ["powershell.exe", "-Command"].
        
Examples of valid command strings:

- ls -a (show hidden): ["powershell.exe", "-Command", "Get-ChildItem -Force"]
- recursive find by name: ["powershell.exe", "-Command", "Get-ChildItem -Recurse -Filter *.py"]
- recursive grep: ["powershell.exe", "-Command", "Get-ChildItem -Path C:\\myrepo -Recurse | Select-String -Pattern 'TODO' -CaseSensitive"]
- ps aux | grep python: ["powershell.exe", "-Command", "Get-Process | Where-Object { $_.ProcessName -like '*python*' }"]
- setting an env var: ["powershell.exe", "-Command", "$env:FOO='bar'; echo $env:FOO"]
- running an inline Python script: ["powershell.exe", "-Command", "@'\\nprint('Hello, world!')\\n'@ | python -"]"#
        } else {
            r#"Runs a shell command and returns its output.
- The arguments to `shell` will be passed to execvp(). Most terminal commands should be prefixed with ["bash", "-lc"].
- Always set the `workdir` param when using the shell function. Do not use `cd` unless absolutely necessary."#
        }.to_string();
        assert_eq!(description, &expected);
    }

    #[test]
    fn test_shell_command_tool() {
        let tool = super::create_shell_command_tool();
        let ToolSpec::Function(ResponsesApiTool {
            description, name, ..
        }) = &tool
        else {
            panic!("expected function tool");
        };
        assert_eq!(name, "shell_command");

        let expected = if cfg!(windows) {
            r#"Runs a Powershell command (Windows) and returns its output.
        
Examples of valid command strings:

- ls -a (show hidden): "Get-ChildItem -Force"
- recursive find by name: "Get-ChildItem -Recurse -Filter *.py"
- recursive grep: "Get-ChildItem -Path C:\\myrepo -Recurse | Select-String -Pattern 'TODO' -CaseSensitive"
- ps aux | grep python: "Get-Process | Where-Object { $_.ProcessName -like '*python*' }"
- setting an env var: "$env:FOO='bar'; echo $env:FOO"
- running an inline Python script: "@'\\nprint('Hello, world!')\\n'@ | python -"#.to_string()
        } else {
            r#"Runs a shell command and returns its output.
- Always set the `workdir` param when using the shell_command function. Do not use `cd` unless absolutely necessary."#.to_string()
        };
        assert_eq!(description, &expected);
    }

    #[test]
    fn test_get_openai_tools_mcp_tools_with_additional_properties_schema() {
        let model_family = find_family_for_model("gpt-5-codex");
        let mut features = Features::with_defaults();
        features.enable(Feature::UnifiedExec);
        features.enable(Feature::WebSearchRequest);
        let config = ToolsConfig::new(&ToolsConfigParams {
            model_family: &model_family,
            features: &features,
        });
        let (tools, _) = build_specs(
            &config,
            Some(HashMap::from([(
                "test_server/do_something_cool".to_string(),
                mcp_types::Tool {
                    name: "do_something_cool".to_string(),
                    input_schema: ToolInputSchema {
                        properties: Some(serde_json::json!({
                            "string_argument": {
                                "type": "string",
                            },
                            "number_argument": {
                                "type": "number",
                            },
                            "object_argument": {
                                "type": "object",
                                "properties": {
                                    "string_property": { "type": "string" },
                                    "number_property": { "type": "number" },
                                },
                                "required": [
                                    "string_property",
                                    "number_property",
                                ],
                                "additionalProperties": {
                                    "type": "object",
                                    "properties": {
                                        "addtl_prop": { "type": "string" },
                                    },
                                    "required": [
                                        "addtl_prop",
                                    ],
                                    "additionalProperties": false,
                                },
                            },
                        })),
                        required: None,
                        r#type: "object".to_string(),
                    },
                    output_schema: None,
                    title: None,
                    annotations: None,
                    description: Some("Do something cool".to_string()),
                },
            )])),
        )
        .build();

        let tool = find_tool(&tools, "test_server/do_something_cool");
        assert_eq!(
            tool.spec,
            ToolSpec::Function(ResponsesApiTool {
                name: "test_server/do_something_cool".to_string(),
                parameters: JsonSchema::Object {
                    properties: BTreeMap::from([
                        (
                            "string_argument".to_string(),
                            JsonSchema::String { description: None }
                        ),
                        (
                            "number_argument".to_string(),
                            JsonSchema::Number { description: None }
                        ),
                        (
                            "object_argument".to_string(),
                            JsonSchema::Object {
                                properties: BTreeMap::from([
                                    (
                                        "string_property".to_string(),
                                        JsonSchema::String { description: None }
                                    ),
                                    (
                                        "number_property".to_string(),
                                        JsonSchema::Number { description: None }
                                    ),
                                ]),
                                required: Some(vec![
                                    "string_property".to_string(),
                                    "number_property".to_string(),
                                ]),
                                additional_properties: Some(
                                    JsonSchema::Object {
                                        properties: BTreeMap::from([(
                                            "addtl_prop".to_string(),
                                            JsonSchema::String { description: None }
                                        ),]),
                                        required: Some(vec!["addtl_prop".to_string(),]),
                                        additional_properties: Some(false.into()),
                                    }
                                    .into()
                                ),
                            },
                        ),
                    ]),
                    required: None,
                    additional_properties: None,
                },
                description: "Do something cool".to_string(),
                strict: false,
            })
        );
    }

    #[test]
    fn chat_tools_include_top_level_name() {
        let mut properties = BTreeMap::new();
        properties.insert("foo".to_string(), JsonSchema::String { description: None });
        let tools = vec![ToolSpec::Function(ResponsesApiTool {
            name: "demo".to_string(),
            description: "A demo tool".to_string(),
            strict: false,
            parameters: JsonSchema::Object {
                properties,
                required: None,
                additional_properties: None,
            },
        })];

        let responses_json = create_tools_json_for_responses_api(&tools).unwrap();
        assert_eq!(
            responses_json,
            vec![json!({
                "type": "function",
                "name": "demo",
                "description": "A demo tool",
                "strict": false,
                "parameters": {
                    "type": "object",
                    "properties": {
                        "foo": { "type": "string" }
                    },
                },
            })]
        );

        let tools_json = create_tools_json_for_chat_completions_api(&tools).unwrap();

        assert_eq!(
            tools_json,
            vec![json!({
                "type": "function",
                "name": "demo",
                "function": {
                    "name": "demo",
                    "description": "A demo tool",
                    "strict": false,
                    "parameters": {
                        "type": "object",
                        "properties": {
                            "foo": { "type": "string" }
                        },
                    },
                }
            })]
        );
    }
}
